Spotlight on Local Change
Spotlight on Lake Tahoe: Climate change brings earlier springs and less snow for famous ski resort
As the globe heats up, it’s becoming apparent that the effects are not uniform everywhere. Some places are getting wetter, some places drier, species are shifting in different ways with dramatic implications for ecosystems. The predominating force shaping the future of the local environment differs as well. In the oceans, acidification has huge impacts for Great Barrier Reef, while in California, fires are raging with increased frequency and ferocity.
Government agencies and academic institutions are beginning to assess local and regional impacts as a way to prepare for the coming change. The aim of this series is to bring climate change home to a particular spot on Earth to understand how life at the species level is adapting or dying.
We start off with Lake Tahoe, the largest freshwater lake in the Sierra Nevada range and the largest alpine lake in North America. Tahoe is perhaps best known for its skiing and boating culture, serving as a major tourist destination nearly year round. Tahoe has faced numerous environmental challenges already, including pollution and sediment runoff, invasive species, and impacts from massive development projects along the shore.
Add to the lake’s troubles that of climate change, which will create a lake unlike that of today, according to a University of California at Davis study written last June for the U.S. Forest Service’s Pacific Southwest Research Station.
The researchers used various climate and watershed models to simulate Tahoe’s response to a range of higher temperatures. The overall trends show that rain will replace snow making for an earlier springtime less flush with snow melt. As such, plants will dry out earlier in the year and will create fuel sources for forest fires. Say good-bye to Tahoe’s renowned ski industry.
One study from 1999 showed that the Tahoe basin had the highest loss in May snow water — at 54 percent – than any of the 20 other river basins examined. This may be because Tahoe’s temperatures have been found warming at a faster pace than the surrounding region.
Another change is the reduced mixing of lake water, an important way to redistribute nutrients and oxygen for lake species. According to one model, deep mixing will shut down after 2060, leaving nutrient-rich sediment at the bottom of the lake where it’s virtually unusable for plants for photosynthesis. Oxygen may reach levels at near zero at the bottom of the lake by 2075, while lower levels of oxygen in other levels of the lake could make the waters inhospitable to salmon and other species. Algae will like the new waters, making the lake less clear and certainly less blue.
“Keep Tahoe Blue” — one the most prominent bumper-stickers seen around the lake — may become a slogan of better days.
Spotlight on Queensland: Extreme rains becoming more common
Queensland, in Northeast Australia, has seen a troubling years. A decade-long drought was followed this past November by the start extreme rains that flooded an area the size of France and Germany combined.
The coral colonies have bands of dense and less dense material in their calcium-carbonate skeletons. The coral bands can be analyzed like tree rings determining patterns of wet and dry years.
The corals show that rainfall has increased and become more variable since the 19th century as wet and dry extremes become more frequent. The frequency of extreme events is currently at a peak with very dry years occurring every 7.5 years and very wet years about once every three years. That’s compared to 12 and nine year cycles in the late 1600s to late 1700s.
The research jives with other studies on Great Barrier Reef corals that support predictions of increased tropical rainfall variability in warmer temperatures. But researchers believe more studies are needed.